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35 Commits
v0.0.14 ... main

Author SHA1 Message Date
support.sampyo 50a6bf2373 Commit message 2024-07-30 05:22:35 +00:00
support.sampyo 5c1d08ee98 Commit message 2024-07-30 04:55:55 +00:00
support.sampyo 95921c49b8 Commit message 2024-07-30 04:50:07 +00:00
support.sampyo 44c6a224c2 Commit message 2024-07-04 06:19:55 +00:00
support.sampyo 797816a6f5 Commit message 2024-07-04 06:14:16 +00:00
support.sampyo 5c41e0664d Commit message 2024-07-04 05:50:25 +00:00
support.sampyo f54f9e7fb5 Commit message 2024-07-04 05:45:11 +00:00
support.sampyo ad62a2f89e Commit message 2024-07-04 05:26:04 +00:00
support.sampyo c566b4070e Commit message 2024-07-04 05:12:08 +00:00
support.sampyo 4239597f8a Commit message 2024-06-12 05:25:29 +00:00
support.sampyo a47d7c2bd9 Commit message 2024-06-12 05:16:08 +00:00
support.sampyo 1a6344fccf Commit message 2024-05-31 01:41:55 +00:00
support.sampyo a493257c17 Commit message 2024-05-30 07:20:05 +00:00
support.sampyo 696cc6f0e8 Commit message 2024-05-30 06:37:40 +00:00
support.sampyo 02a44e8478 Commit message 2024-05-29 08:13:58 +00:00
support.sampyo 3fdb92ae4d Commit message 2024-05-29 08:11:32 +00:00
support.sampyo ddc05f15ee Commit message 2024-05-29 08:09:07 +00:00
support.sampyo 944013c835 Commit message 2024-05-29 06:42:52 +00:00
support.sampyo 8efbc66164 Commit message 2024-05-29 06:30:40 +00:00
support.sampyo d18653ef71 Commit message 2024-05-29 06:15:49 +00:00
support.sampyo 4328027519 Commit message 2024-05-29 06:03:54 +00:00
support.sampyo e5d745c4e1 Commit message 2024-05-29 05:51:51 +00:00
support.sampyo d1a2dd1027 Commit message 2024-05-29 04:27:22 +00:00
support.sampyo c1f26f9340 Commit message 2024-05-24 06:04:38 +00:00
support.sampyo 370d851500 Commit message 2024-05-24 05:17:25 +00:00
support.sampyo e1d1327849 Commit message 2024-05-23 07:15:58 +00:00
support.sampyo b0b16d396c Commit message 2024-05-23 07:09:27 +00:00
support.sampyo ae42726b4d Commit message 2024-05-23 07:03:51 +00:00
support.sampyo e99f5122cb Commit message 2024-05-23 06:47:31 +00:00
support.sampyo f5f155c1bc Commit message 2024-05-23 06:12:49 +00:00
support.sampyo 3a30bba1ef Commit message 2024-05-23 05:50:59 +00:00
support.sampyo 978b40a0c4 Commit message 2024-05-23 05:45:54 +00:00
support.sampyo 0c77a24a40 Commit message 2024-05-23 05:42:56 +00:00
support.sampyo 0a351ca635 Commit message 2024-05-23 05:33:27 +00:00
support.sampyo 0a996b5b66 Commit message 2024-05-23 01:32:45 +00:00
5 changed files with 605 additions and 394 deletions
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.main.py.swp Normal file
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24
config.json
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@ -1,12 +1,12 @@
{ {
"appId": "81a695f0-a990-43c8-998f-2ba1bf9c6005", "appId": "81a695f0-a990-43c8-998f-2ba1bf9c6005",
"modbus-server": { "modbus-server": {
"address": "172.17.16.202", "address": "172.17.16.202",
"port": 5020 "port": 5020
}, },
"tcp-server": { "tcp-server": {
"address": "172.17.16.201", "address": "172.17.16.201",
"port": 24 "port": 24
}, },
"volume-water": 542 "volume-water": 542
} }

76
control.json
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@ -1,27 +1,49 @@
{ {
"device": { "device": {
"setzero": { "setzero": {
"action": "Off" "action": "Off"
}, },
"measure": { "measure": {
"action": "On", "action": "On"
"duration": 20 },
}, "mixed": {
"mixed": { "action": "Off"
"action": "Off", },
"duration": 15 "pure": {
}, "action": "Off",
"pure": { "duration": 1.5
"action": "Off", },
"duration": 15 "enter":{
}, "action": "Off"
"vent": { },
"action": "Off", "vent": {
"duration": 30 "action": "On"
}, },
"motor": { "motor": {
"action": "Off" "action": "Off"
} },
}, "main": {
"type": "manual" "action": "Off",
} "duration": 1.5
}
},
"working-time":{
"step0": 5,
"step1": 10,
"step2": 6,
"step3": 7,
"step4": 20,
"step5": 10,
"step6": 6,
"step7": 6,
"step8": 10,
"step9": 0.5
},
"maintenance": {
"clean": {
"duration": 20,
"time": 25
}
},
"type": "manual"
}

22
framework.yaml
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@ -1,11 +1,11 @@
version: bwc/v2 # bwc 버전 정보입니다. version: bwc/v2 # bwc 버전 정보입니다.
spec: spec:
appName: sampyo-dio-app # 앱의 이름입니다. appName: sampyo-dio-app # 앱의 이름입니다.
runFile: main.py # 앱의 실행 파일입니다. runFile: main.py # 앱의 실행 파일입니다.
env: env:
bin: python3 # 앱을 실행할 바이너라 파일 종류입니다.(장비에 따라 다르므로 확인 후 정의해야 합니다.) bin: python3 # 앱을 실행할 바이너라 파일 종류입니다.(장비에 따라 다르므로 확인 후 정의해야 합니다.)
virtualEnv: base # 사용할 가상환경 이름입니다. virtualEnv: base # 사용할 가상환경 이름입니다.
package: requirements.txt # 설치할 Python 패키지 정보 파일입니다.(기본 값은 requirement.txt 입니다.) package: requirements.txt # 설치할 Python 패키지 정보 파일입니다.(기본 값은 requirement.txt 입니다.)
stackbase: stackbase:
tagName: v0.0.14 # Stackbase(gitea)에 릴리즈 태그명 입니다. tagName: v0.0.49 # Stackbase(gitea)에 릴리즈 태그명 입니다.
repoName: sampyo-dio # Stackbase(gitea)에 저장될 저장소 이릅니다. repoName: sampyo-dio # Stackbase(gitea)에 저장될 저장소 이릅니다.

877
main.py
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@ -1,344 +1,533 @@
import json import json
import time import time
import argparse import argparse
import sys, signal import sys, signal
import gpiod import gpiod
from pymodbus.client import ModbusTcpClient from pymodbus.client import ModbusTcpClient
# import AWSIoTPythonSDK.MQTTLib as AWSIoTPyMQTT # import AWSIoTPythonSDK.MQTTLib as AWSIoTPyMQTT
import sdtcloudnodeqmqtt import sdtcloudnodeqmqtt
import pytz import pytz
from datetime import datetime from datetime import datetime
import threading, socket import threading, socket
import uuid import uuid
def Motor(chip, status, action): def Motor(chip, status, action):
if action == 'On': if action == 'On':
status[0] = 1 status[0] = 1
else: # action == 'Off' else: # action == 'Off'
status[0] = 0 status[0] = 0
chip.set_values(status) chip.set_values(status)
def Valve_Vent(chip, status, action): def Valve_Vent(chip, status, action):
if action == 'On': if action == 'On':
status[1] = 1 status[1] = 1
else: # action == 'Off' else: # action == 'Off'
status[1] = 0 status[1] = 0
chip.set_values(status) chip.set_values(status)
def Valve_MixedWater(chip, status, action): def Valve_MixedWater(chip, status, action):
if action == 'On': if action == 'On':
status[2] = 1 status[2] = 1
else: # action == 'Off' else: # action == 'Off'
status[2] = 0 status[2] = 0
chip.set_values(status) chip.set_values(status)
def Valve_PureWater(chip, status, action): def Valve_PureWater(chip, status, action, duration=7):
if action == 'On': global pure_valve_status
status[3] = 1
else: # action == 'Off' status[2] = 0
status[3] = 0 status[3] = 0
chip.set_values(status)
chip.set_values(status) time.sleep(0.05)
def Measure_Weight(client): if pure_valve_status != 0 and action == 'Off':
# print('In') status[2] = 0
val = 0 status[3] = 1
try: chip.set_values(status)
result = client.read_holding_registers(1, 1) time.sleep(7)
if result.isError(): pure_valve_status = 0
print(f'Error: {result}') elif pure_valve_status == 0 and action == 'On':
else: status[2] = 1
val = result.registers[0] status[3] = 0
val -= 1000 chip.set_values(status)
val /= 1000 time.sleep(duration)
print(f'value: {val}') if duration >= 7:
except Exception as e: pure_valve_status = 2
pass elif duration < 7:
pure_valve_status = 1
return val
status[2] = 0
def Calculate_Concentration(weight): status[3] = 0
global data, volume_water chip.set_values(status)
data['data']['weight'] = weight time.sleep(0.05)
result = (float(weight) * volume_water * 128.5) - 126.11 # 1000 / 531 = 1.883239171
data['data']['concentration'] = result def Valve_EnterWater(chip, status, action):
# print(f'{weight}, {result}') if action == 'On':
status[4] = 1
def Set_Zero(client): else: # action == 'Off'
client.write_coil(1, 1) status[4] = 0
def Command_Read(): chip.set_values(status)
with open('./control.json', 'r') as f:
cmd = json.load(f) def Valve_MainWater(chip, status, action, duration=7):
global main_valve_status
if cmd['type'] == 'auto':
status[5] = 0
Valve_Vent(chip=output_lines, status=status, action='Off') status[6] = 0
Motor(chip=output_lines, status=status, action='Off') chip.set_values(status)
time.sleep(0.05)
mixed_duration = int(cmd['device']['mixed']['duration'])
pure_duration = int(cmd['device']['pure']['duration']) if main_valve_status != 0 and action == 'Off':
vent_duration = int(cmd['device']['vent']['duration']) status[5] = 0
measure_duration = int(cmd['device']['vent']['duration']) status[6] = 1
chip.set_values(status)
time.sleep(5) time.sleep(7)
start = Measure_Weight(client=client) main_valve_status = 0
time.sleep(5) elif main_valve_status == 0 and action == 'On':
status[5] = 1
# input mixed water status[6] = 0
Valve_MixedWater(chip=output_lines, status=status, action='On') chip.set_values(status)
time.sleep(mixed_duration) time.sleep(duration)
Valve_MixedWater(chip=output_lines, status=status, action='Off') if duration >= 7:
time.sleep(measure_duration) main_valve_status = 2
elif duration < 7:
# measure weight main_valve_status = 1
end = Measure_Weight(client=client)
time.sleep(1) status[5] = 0
status[6] = 0
Calculate_Concentration(weight=(float(end)-float(start))) chip.set_values(status)
time.sleep(0.05)
# vent mixed water
Valve_Vent(chip=output_lines, status=status, action='On') def Measure_Weight(client):
time.sleep(0.5) # print('in')
Motor(chip=output_lines, status=status, action='On') val = 0
time.sleep(vent_duration) try:
Motor(chip=output_lines, status=status, action='Off') result = client.read_holding_registers(1, 1)
time.sleep(0.5) if not result:
Valve_Vent(chip=output_lines, status=status, action='Off') print(f'Error: {result}')
time.sleep(0.5) else:
val = result.registers[0]
# input pure water val -= 1000
Valve_PureWater(chip=output_lines, status=status, action='On') val /= 1000
time.sleep(pure_duration) # print(f'value: {val}')
Valve_PureWater(chip=output_lines, status=status, action='Off') except Exception as e:
time.sleep(0.5) print(f'Measure_Weight Error: {e}')
pass
# vent pure water
Valve_Vent(chip=output_lines, status=status, action='On') return float(val)
time.sleep(0.5)
Motor(chip=output_lines, status=status, action='On') def Calculate_Concentration(weight):
time.sleep(vent_duration) global data, volume_water
Motor(chip=output_lines, status=status, action='Off') data['data']['weight'] = weight
time.sleep(0.5) result = (float(weight) * volume_water * 128.5) - 126.11 # 1000 / 531 = 1.883239171
Valve_Vent(chip=output_lines, status=status, action='Off') data['data']['concentration'] = result
time.sleep(1) # print(f'{weight}, {result}')
return 1 def Set_Zero(client):
client.write_coil(1, 1)
else: # cmd['type'] == 'manual'
Motor(chip=output_lines, status=status, action=cmd['device']['motor']['action']) def Command_Read():
Valve_Vent(chip=output_lines, status=status, action=cmd['device']['vent']['action']) global client, main_valve_status
Valve_MixedWater(chip=output_lines, status=status, action=cmd['device']['mixed']['action'])
Valve_PureWater(chip=output_lines, status=status, action=cmd['device']['pure']['action']) with open('./control.json', 'r') as f:
if cmd['device']['measure']['action'] == 'On': cmd = json.load(f)
result = Measure_Weight(client=client)
Calculate_Concentration(result) if cmd['type'] == 'auto':
return 1 main_duration = float(cmd['device']['main']['duration'])
pure_duration = float(cmd['device']['pure']['duration'])
if cmd['device']['setzero']['action'] == 'On': step0_duration = float(cmd['working-time']['step0'])
Set_Zero(client=client) step1_duration = float(cmd['working-time']['step1'])
step2_duration = float(cmd['working-time']['step2'])
return 0 step3_duration = float(cmd['working-time']['step3'])
step4_duration = float(cmd['working-time']['step4'])
def runAction(): step5_duration = float(cmd['working-time']['step5'])
# Write the app's actions in the "runAction" function. step6_duration = float(cmd['working-time']['step6'])
step7_duration = float(cmd['working-time']['step7'])
# Connect MQTT Broker step8_duration = float(cmd['working-time']['step8'])
# You have to rename client id. There are special rules. step9_duration = float(cmd['working-time']['step9'])
# Client Name: "device-app-*"
# For Example
# 1. device-app-test -> Good # Step 0. Mesure init weight before starting the sequence
# 2. device-app-light-app -> Good time.sleep(step0_duration)
# 3. device-test-app -> Bad start = Measure_Weight(client=client)
sdtcloud = sdtcloudnodeqmqtt.sdtcloudnodeqmqtt()
mqttClient1 = sdtcloud.setClient(f"device-app-1{uuid.uuid1()}") # parameter is client ID(string) # Step 1. Vent pured water before input mixed water
mqttClient2 = sdtcloud.setClient(f"device-app-2{uuid.uuid1()}") # parameter is client ID(string) # Target valve status: [Motor: Off, Vent: On, Pure: Off, Enter: On, Main: On]
mqttClient3 = sdtcloud.setClient(f"device-app-3{uuid.uuid1()}") # parameter is client ID(string) Valve_EnterWater(chip=output_lines, status=status, action='On')
mqttClient4 = sdtcloud.setClient(f"device-app-4{uuid.uuid1()}") # parameter is client ID(string) time.sleep(0.5)
mqttClient5 = sdtcloud.setClient(f"device-app-5{uuid.uuid1()}") # parameter is client ID(string) Valve_Vent(chip=output_lines, status=status, action='On')
mqttlist = [mqttClient1, mqttClient2, mqttClient3, mqttClient4, mqttClient5] time.sleep(0.5)
Valve_MainWater(chip=output_lines, status=status, action='On', duration=main_duration)
# If you have config's value, please make config.json file. time.sleep(step1_duration)
# - Project Code's variable: projectCode(string)
# - Asset Code's variable: assetCode(string) # Step 2. Empty the remaining pure water
# - You may need it to create a topic. # Target valve status: [Motor: Off, Vent: On, Pure: Off, Enter: Off, Main: On]
Valve_EnterWater(chip=output_lines, status=status, action='Off')
time.sleep(step2_duration)
cnt = 0
while True: # Step 3. Input the mixed water
start = time.time() # Target valve status: [Motor: Off, Vent: Off, Pure: Off, Enter: On, Main: On]
result = Command_Read() Valve_Vent(chip=output_lines, status=status, action='Off')
time.sleep(0.5)
if result: Valve_EnterWater(chip=output_lines, status=status, action='On')
data['timestamp'] = int(time.time() * 1000) time.sleep(step3_duration)
sdtcloud.pubMessage(mqttlist[cnt], data)
cnt += 1 # Step 4. Mesure the weight
if cnt == 5: # Target valve status: [Motor: Off, Vent: Off, Pure: Off, Enter: Off, Main: Off]
cnt = 0 Valve_EnterWater(chip=output_lines, status=status, action='Off')
time.sleep(0.5)
end = time.time() Valve_MainWater(chip=output_lines, status=status, action='Off')
diff = end - start time.sleep(step4_duration)
if diff < 3: end = Measure_Weight(client=client)
time.sleep(3 - diff) time.sleep(1)
def handle_client(conn, ip, port): Calculate_Concentration(weight=(float(end)-float(start)))
global data
while True: # Step 5. Drain the mixed water and add pure water.
try: # Target valve status: [Motor: Off, Vent: On, Pure: On, Enter: On, Main: Off]
recv = conn.recv(100) Valve_EnterWater(chip=output_lines, status=status, action='On')
if not recv: time.sleep(0.5)
# print(f"Connection with {addr} was reset. Waiting for new connection.") Valve_Vent(chip=output_lines, status=status, action='On')
break time.sleep(0.5)
Valve_PureWater(chip=output_lines, status=status, action='On', duration=pure_duration)
message = recv.decode().strip() time.sleep(step5_duration)
if message[:3] != 'STX' or message[-3:] != 'ETX': # Step 6. Drain mixed water
err_msg = 'STXERRORETX' # Target valve status: [Motor: Off, Vent: On, Pure: On, Enter: Off, Main: Off]
conn.sendall(err_msg.encode("utf8")) Valve_EnterWater(chip=output_lines, status=status, action='Off')
else: time.sleep(step6_duration)
if message[3] == 'R': # Transfer data from SDT to Sampyo
now = datetime.now(pytz.timezone('Asia/Seoul')) # Step 7. Input pure water and clean
time_str = now.strftime('%Y%m%d%H%M%S') # Target valve status: [Motor: On, Vent: Off, Pure: On, Enter: On, Main: Off]
Valve_EnterWater(chip=output_lines, status=status, action='On')
h_weight = float(data['data']['weight']) time.sleep(0.5)
h_concentration = float(data['data']['concentration']) Valve_Vent(chip=output_lines, status=status, action='Off')
data_weight = '{:.3f}'.format(h_weight) time.sleep(0.5)
data_concent = '{:.3f}'.format(h_concentration) Motor(chip=output_lines, status=status, action='On')
time.sleep(step7_duration)
send_msg = 'STX' + time_str + '|' + data_weight + '|' + data_concent + 'ETX'
# Step 8. Drain pure Water
try: # Target valve status: [Motor: On, Vent: On, Pure: Off, Enter: Off, Main: Off]
with open('./control.json', 'r') as f: Valve_EnterWater(chip=output_lines, status=status, action='Off')
cmd = json.load(f) time.sleep(0.5)
Valve_Vent(chip=output_lines, status=status, action='On')
cmd['device']['measure']['action'] = 'On' time.sleep(0.5)
Valve_PureWater(chip=output_lines, status=status, action='Off')
with open('./control.json', 'w') as f: time.sleep(step8_duration)
json.dump(cmd, f, indent=4)
# Step 9. Stop moter
conn.sendall(send_msg.encode("utf8")) # Target valve status: [Motor: Off, Vent: On, Pure: Off, Enter: Off, Main: Off]
except Exception as e: Motor(chip=output_lines, status=status, action='Off')
err_msg = 'STXERRORETX' time.sleep(step9_duration)
conn.sendall(err_msg.encode("utf8"))
return 1
elif message[3] == 'S': # Start measurement
try: elif cmd['type'] == 'clean':
with open('./control.json', 'r') as f: clean_system()
cmd = json.load(f) time.sleep(3)
cmd['type'] = 'auto' else: # cmd['type'] == 'manual'
Motor(chip=output_lines, status=status, action=cmd['device']['motor']['action'])
with open('./control.json', 'w') as f: Valve_Vent(chip=output_lines, status=status, action=cmd['device']['vent']['action'])
json.dump(cmd, f, indent=4) # Valve_MixedWater(chip=output_lines, status=status, action=cmd['device']['mixed']['action'])
# Valve_PureWater(chip=output_lines, status=status, action=cmd['device']['pure']['action'])
send_msg = 'STXOKETX' Valve_EnterWater(chip=output_lines, status=status, action=cmd['device']['enter']['action'])
conn.sendall(send_msg.encode("utf8"))
except Exception as e: if cmd['device']['pure']['duration'] == 0:
err_msg = 'STXERRORETX' Valve_PureWater(chip=output_lines, status=status, action=cmd['device']['pure']['action'])
conn.sendall(err_msg.encode("utf8")) else:
Valve_PureWater(chip=output_lines, status=status, action=cmd['device']['pure']['action'], duration=cmd['device']['pure']['duration'])
elif message[3] == 'T': # Stop measurement
try:
with open('./control.json', 'r') as f: if cmd['device']['main']['duration'] == 0:
cmd = json.load(f) Valve_MainWater(chip=output_lines, status=status, action=cmd['device']['main']['action'])
else:
cmd['type'] = 'manual' Valve_MainWater(chip=output_lines, status=status, action=cmd['device']['main']['action'], duration=cmd['device']['main']['duration'])
cmd['device']['measure']['action'] = 'Off'
with open('./control.json', 'w') as f: if cmd['device']['measure']['action'] == 'On':
json.dump(cmd, f, indent=4) result = Measure_Weight(client=client)
Calculate_Concentration(result)
send_msg = 'STXOKETX' return 1
conn.sendall(send_msg.encode("utf8"))
except Exception as e: if cmd['device']['setzero']['action'] == 'On':
err_msg = 'STXERRORETX' Set_Zero(client=client)
conn.sendall(err_msg.encode("utf8"))
return 0
else:
err_msg = 'STXERRORETX' def clean_system():
conn.sendall(err_msg.encode("utf8")) global main_valve_status
except ConnectionResetError: with open('./control.json', 'r') as f:
# print("Connection with " + ip + ":" + port + " was reset. Waiting for new connection.") cmd = json.load(f)
break
clean_duration = int(cmd['maintenance']['clean']['duration'])
# print("Closing the connection")
if cmd['type'] == 'clean':
def start_server(addr, port): Valve_EnterWater(chip=output_lines, status=status, action='Off')
host = addr # "25.7.57.1" time.sleep(0.5)
port = port # 5000
Valve_MainWater(chip=output_lines, status=status, action='On')
soc = socket.socket(socket.AF_INET, socket.SOCK_STREAM) time.sleep(0.5)
soc.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) Valve_PureWater(chip=output_lines, status=status, action='On')
time.sleep(clean_duration)
try:
soc.bind((host, port)) Valve_MainWater(chip=output_lines, status=status, action='Off')
except: time.sleep(0.5)
sys.exit()
Valve_EnterWater(chip=output_lines, status=status, action='On')
soc.listen(1) # Only one connection at a time. time.sleep(0.5)
Valve_Vent(chip=output_lines, status=status, action='On')
while True: time.sleep(clean_duration)
conn, addr = soc.accept()
ip, port = str(addr[0]), str(addr[1]) Valve_PureWater(chip=output_lines, status=status, action='Off')
print("Connected with " + ip + ":" + port) time.sleep(0.5)
Valve_Vent(chip=output_lines, status=status, action='Off')
client_handler = threading.Thread(target=handle_client, args=(conn, ip, port)) time.sleep(0.5)
client_handler.start() Valve_EnterWater(chip=output_lines, status=status, action='Off')
time.sleep(0.5)
soc.close()
def runAction():
def exit_handler(signum, frame): # Write the app's actions in the "runAction" function.
Motor(chip=output_lines, status=status, action='Off')
Valve_Vent(chip=output_lines, status=status, action='Off') # Connect MQTT Broker
Valve_MixedWater(chip=output_lines, status=status, action='Off') # You have to rename client id. There are special rules.
Valve_PureWater(chip=output_lines, status=status, action='Off') # Client Name: "device-app-*"
# For Example
client.close() # 1. device-app-test -> Good
# 2. device-app-light-app -> Good
sys.exit(0) # 3. device-test-app -> Bad
global data
if __name__ == "__main__": sdtcloud = sdtcloudnodeqmqtt.sdtcloudnodeqmqtt()
output_chip = gpiod.chip('gpiochip11') mqttClient1 = sdtcloud.setClient(f"device-app-1{uuid.uuid1()}") # parameter is client ID(string)
config = gpiod.line_request() mqttClient2 = sdtcloud.setClient(f"device-app-2{uuid.uuid1()}") # parameter is client ID(string)
config.consumer = 'output' mqttClient3 = sdtcloud.setClient(f"device-app-3{uuid.uuid1()}") # parameter is client ID(string)
config.request_type = gpiod.line_request.DIRECTION_OUTPUT mqttClient4 = sdtcloud.setClient(f"device-app-4{uuid.uuid1()}") # parameter is client ID(string)
mqttClient5 = sdtcloud.setClient(f"device-app-5{uuid.uuid1()}") # parameter is client ID(string)
output_lines = output_chip.get_lines([0, 1, 2, 3, 4, 5, 6, 7]) mqttlist = [mqttClient1, mqttClient2, mqttClient3, mqttClient4, mqttClient5]
output_lines.request(config, default_vals=[0, 0, 0, 0, 0, 0, 0, 0])
# If you have config's value, please make config.json file.
status = [0, 0, 0, 0, 0, 0, 0, 0] # - Project Code's variable: projectCode(string)
# - Asset Code's variable: assetCode(string)
signal.signal(signal.SIGINT, exit_handler) # - You may need it to create a topic.
with open('./config.json', encoding='UTF-8') as f: cnt = 0
jsonData = json.load(f) clean_flag = 0
while True:
volume_water = 1000.0 / float(jsonData['volume-water']) start = time.time()
result = Command_Read()
modbus_addr = jsonData['modbus-server']['address']
modbus_port = jsonData['modbus-server']['port'] if result:
data['timestamp'] = int(time.time() * 1000)
client = ModbusTcpClient(modbus_addr, modbus_port) sdtcloud.pubMessage(mqttlist[cnt], data)
cnt += 1
data = { if cnt == 5:
"timestamp": 0, cnt = 0
"data":{
"weight": 0, end = time.time()
"concentration": 0
} try:
} now = datetime.now(pytz.timezone('Asia/Seoul'))
time_str = now.strftime('%H')
## Get ProjectCode and AssetCode time_int = int(time_str)
## Execution main funcion with open('./control.json', 'r') as f:
operation_thread = threading.Thread(target=runAction, args=()) cmd = json.load(f)
operation_thread.start()
if time_int == int(cmd['maintenance']['clean']['time']):
tcp_addr = jsonData['tcp-server']['address'] if clean_flag < 3:
tcp_port = jsonData['tcp-server']['port'] clean_flag += 1
## Execution TCP/IP server clean_system()
start_server(addr=tcp_addr, port=tcp_port) else:
clean_flag = 0
except:
pass
diff = end - start
if diff < 3:
time.sleep(3 - diff)
def handle_client(conn, ip, port):
global data
while True:
try:
recv = conn.recv(100)
if not recv:
# print(f"Connection with {addr} was reset. Waiting for new connection.")
break
message = recv.decode().strip()
if message[:3] != 'STX' or message[-3:] != 'ETX':
err_msg = 'STXERRORETX'
conn.sendall(err_msg.encode("utf8"))
else:
if message[3] == 'R': # Transfer data from SDT to Sampyo
now = datetime.now(pytz.timezone('Asia/Seoul'))
time_str = now.strftime('%Y%m%d%H%M%S')
h_weight = float(data['data']['weight'])
h_concentration = float(data['data']['concentration'])
data_weight = '{:.3f}'.format(h_weight)
data_concent = '{:.3f}'.format(h_concentration)
send_msg = 'STX' + time_str + '|' + data_weight + '|' + data_concent + 'ETX'
try:
with open('./control.json', 'r') as f:
cmd = json.load(f)
cmd['device']['measure']['action'] = 'On'
with open('./control.json', 'w') as f:
json.dump(cmd, f, indent=4)
conn.sendall(send_msg.encode("utf8"))
except Exception as e:
err_msg = 'STXERRORETX'
conn.sendall(err_msg.encode("utf8"))
elif message[3] == 'S': # Start measurement
try:
with open('./control.json', 'r') as f:
cmd = json.load(f)
cmd['type'] = 'auto'
with open('./control.json', 'w') as f:
json.dump(cmd, f, indent=4)
send_msg = 'STXOKETX'
conn.sendall(send_msg.encode("utf8"))
except Exception as e:
err_msg = 'STXERRORETX'
conn.sendall(err_msg.encode("utf8"))
elif message[3] == 'C': # Clean sequence
try:
with open('./control.json', 'r') as f:
cmd = json.load(f)
cmd['type'] = 'clean'
with open('./control.json', 'w') as f:
json.dump(cmd, f, indent=4)
send_msg = 'STXOKETX'
conn.sendall(send_msg.encode("utf8"))
except Exception as e:
err_msg = 'STXERRORETX'
conn.sendall(err_msg.encode("utf8"))
elif message[3] == 'T': # Stop measurement
try:
with open('./control.json', 'r') as f:
cmd = json.load(f)
cmd['type'] = 'manual'
cmd['device']['measure']['action'] = 'Off'
with open('./control.json', 'w') as f:
json.dump(cmd, f, indent=4)
send_msg = 'STXOKETX'
conn.sendall(send_msg.encode("utf8"))
except Exception as e:
err_msg = 'STXERRORETX'
conn.sendall(err_msg.encode("utf8"))
else:
err_msg = 'STXERRORETX'
conn.sendall(err_msg.encode("utf8"))
except ConnectionResetError:
# print("Connection with " + ip + ":" + port + " was reset. Waiting for new connection.")
break
# print("Closing the connection")
def start_server(addr, port):
host = addr # "172.17.16.201"
port = port # 5000
soc = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
soc.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
try:
soc.bind((host, port))
except:
sys.exit()
soc.listen(1) # Only one connection at a time.
while True:
conn, addr = soc.accept()
ip, port = str(addr[0]), str(addr[1])
print("Connected with " + ip + ":" + port)
client_handler = threading.Thread(target=handle_client, args=(conn, ip, port))
client_handler.start()
soc.close()
def exit_handler(signum, frame):
Motor(chip=output_lines, status=status, action='Off')
Valve_Vent(chip=output_lines, status=status, action='Off')
# Valve_MixedWater(chip=output_lines, status=status, action='Off')
Valve_PureWater(chip=output_lines, status=status, action='Off')
Valve_EnterWater(chip=output_lines, status=status, action='Off')
Valve_MainWater(chip=output_lines, status=status, action='Off')
client.close()
sys.exit(0)
if __name__ == "__main__":
output_chip = gpiod.chip('gpiochip11')
config = gpiod.line_request()
config.consumer = 'output'
config.request_type = gpiod.line_request.DIRECTION_OUTPUT
output_lines = output_chip.get_lines([0, 1, 2, 3, 4, 5, 6, 7])
output_lines.request(config, default_vals=[0, 0, 0, 0, 0, 0, 0, 0])
status = [0, 0, 0, 0, 0, 0, 0, 0]
signal.signal(signal.SIGINT, exit_handler)
main_valve_status = 0
pure_valve_status = 0
Valve_MainWater(chip=output_lines, status=status, action='Off')
Valve_PureWater(chip=output_lines, status=status, action='Off')
with open('./config.json', encoding='UTF-8') as f:
jsonData = json.load(f)
volume_water = 1000.0 / float(jsonData['volume-water'])
modbus_addr = jsonData['modbus-server']['address']
modbus_port = jsonData['modbus-server']['port']
client = ModbusTcpClient(modbus_addr, modbus_port)
data = {
"timestamp": 0,
"data":{
"weight": 0,
"concentration": 0
}
}
## Get ProjectCode and AssetCode
## Execution main funcion
operation_thread = threading.Thread(target=runAction, args=())
operation_thread.start()
tcp_addr = jsonData['tcp-server']['address']
tcp_port = jsonData['tcp-server']['port']
## Execution TCP/IP server
start_server(addr=tcp_addr, port=tcp_port)